Hintze Centre for Astrophysical Surveys

The chemical composition towards the galactic anti-centre: II. Differential abundance analyses and distance determinations

Astronomy and Astrophysics 310:1 (1996) 123-131

Authors:

SJ Smartt, PL Dufton, WRJ Rolleston

Abstract:

In a previous paper we have published observational data for 6 early B-type stars having galactocentric distances of between 10 and 18 kpc. Using LTE line-blanketed model atmosphere techniques we derived their atmospheric parameters, finding that all our targets had similar effective temperatures and surface gravities. In the following study we additionally include two stars which have been presented previously (Rolleston et al. 1993) and found also to have compatible atmospheric parameters to the original programme stars. The homogeneity of this sample allows quantitative line-by-line differential abundance analyses to be carried out which should reliably detect variations in the chemical compositions of the stellar photospheres. We present differential abundances for eight stars, in either young open clusters or the field, with respect to an arbitrarily chosen standard which shows a normal abundance pattern. Our method of calculating distances from the derived atmospheric parameters means that the relative distance scale should be accurate. We find that three of these stars, probably all situated within the Perseus arm show relatively normal metal abundances and that one star which is metal deficient may have formed between the Local and Perseus spiral features. Beyond a galactic radius of 12 kpc, we detect depletions in most of the stars although a significant degree of scatter is also present. A negative linear abundance gradient appears too simple to account for the variations reported. A comparison between the nitrogen and oxygen differential abundances in each star shows a significant degree of scatter, whereas other reliably measured metal abundances (silicon and magnesium) appear well correlated. Hence we may be detecting core CNO cycled material which has been mixed to the surfaces of some of these objects.

A New I-Band Tully-Fisher Relation for the Fornax Cluster: Implication for the Fornax Distance and Local Supercluster Velocity Field

The Astrophysical Journal American Astronomical Society 463 (1996) 60

Authors:

M Bureau, JR Mould, L Staveley-Smith

The chemical composition towards the Galactic anti-centre. I. Observations and model atmosphere analyses

Astronomy and Astrophysics Supplement Series EDP Sciences 116:3 (1996) 483-494

Authors:

SJ Smartt, PL Dufton, WRJ Rolleston

A new deep infrared finder chart for the Cygnus X-3 field

Astronomy and Astrophysics 308:2 (1996) 497-498

Authors:

RP Fender, SJ Bell Burnell

Abstract:

We present a new deep K-band infrared finder chart for the Cygnus X-3 field, revealing the presence of at least ten previously undetected infrared objects within a few arc seconds of the source. Although these newly-discovered objects have in all likelihood not affected previous infrared spectroscopy or photometry of Cyg X-3, knowledge of their locations is an important consideration for future deep infrared spectroscopy of the source.

A metal deficient early B-type star near the edge of the galactic disk

Astronomy and Astrophysics 305:1 (1996) 164-170

Authors:

SJ Smartt, RL Dufton, WRJ Rolleston

Abstract:

High resolution spectra of an early B-type star associated with the H II region detected by de Geus et al. (1993) are analysed using LTE model atmosphere techniques to derive stellar atmospheric parameters and a chemical composition. A distance to the star of 8.2 kpc is estimated, placing it near the edge of the galactic disk and closer than the kinematic distance of 20 kpc to the H II region, calculated by de Geus et al. A differential line by line abundance analysis with respect to the spectroscopic standard τ Sco indicates a significant metal depletion, with elements down on average by -0.5 dex.